All of your comments make alot of sense, and lead me to pursue my experiment with even more fervor. The increase in bubbles will help to remove co2 from each consecutive fermentation chamber, and if I plave the tube low enough it would essentially auto stir each new iteration.
When I do the experiment I wanted to take an abv rating each month, to see if there is any noticable change in the fermentation speed. Depending on my results I can tweak the overall design of the new fermentation vessel.
Any other comments/concerns you would like to make?
A few guesses:
* in essence you are saying what is the effect of running a larger fermentor? , , If you daisy chained five 5 gallon carboys you would be only running 25 gallons, if you chained ten it is only 50 gallons, not a lot when a small winery may run 500 and a big winery 10,000 gallons per tank.
* what do yeast need?
1) In growth phase they need oxygen for cell growth— If you were out of the primary, the growth phase is done and it is not an issue, yeast will have started to do anaerobic metabolism, if they have not gone through cell reproduction the fermentation would be significantly limited and I wouldn’t be surprised if it got stuck.
2) nutrition—- the assumption on the thought experiment is that all carboys are managed to start with equal nutrition since your goal is to produce quality wine. On a large fermentor agitation is provided to minimize disuniformity. In the scheme of things a 5 or a 50 gallon is small and I would not expect significant hot spots/ dead zones. ie. Maximum ABV is limited by the nutrient load at the start.
3) cooling —— yeast metabolism is exothermic and ALL large tanks have chill plates, combined with the mixing on #2 we strive to maintain within a few degrees of optimum. Yeast will die above 35 ( worst case like power failure) and have started to slow down at 30C. The larger tanks are basically limited by heat production, a chill plate will ice up if the mixing isn’t enough, ice acts as insulation so we can’t push the delta T too much. On daisy chained carboys the surface area is large therefore heat build up isn’t significant. To simulate this in your test you might insulate each carboy with 6 inches of fiberglass insulation. You will see that the fermentation is faster. If I run a 27.5C tank it will take about 3 days (and nutrition needs to be managed to keep it from smelling of SO2) where as a 10C fermentation is over 3 weeks , , , (but then those nasty fruit flavors hang in). ie rate is a function of temperature
4) respiration—- CO2 assuming that you don’t build up pressure the gas law defines how much CO2 is in the liquid. With a daisy chained set up there might be a slight increase in pressure, but not significant compared to a large tank, besides, glass and corks are not rated for 15 pounds of pressure and you would see catastrophic failure. A carboy with an airlock is at about 1 inch water column plus the height of the wine, , approximately 25 inches maximum pressure head, therefore not a lot of difference (the assumption is a single carboy actively fermenting is already saturated). To copy a commercial system I would run stainless steel soda carbonation tanks, connect with pipe or Tygon pressure tubing and then stack them to build up 7 to 10 feet of head. All of that said the gas law basically says that the amount of CO2 is linear with pressure therefore the top of the stack will have less dissolved gas than the bottom, the effect of which we try to minimize since #2 and #3 assume we have agitation running for the purpose of keeping the yeast alive. (a side note, yes some tanks are adgetated by bubbling nitrogen from the bottom). ie if CO2 builds up enough to make a difference get the mop and broom out
5) clearing the wine, a tall tank takes longer, especially since #2 and #3 have us mixing while fermentation is active.
All in all, , , industry works to create a situation whereby the fermentation runs as well as a 5 gallon carboy. The rate limiting factors keep forcing us to toss energy in to get rid of limits.
A neat vessel to tweek is continuous fermentation. —- I have seen a write up of a plug flow (long pipe) university lab set up where one could feed in juice on one end and pull wine out the other end. It was rated a few ml per hour and I think it pushed product in 12 or 24 hours. Sweet, , , when one is breeding and wants to estimate what a selection could do with 7 years in a traditional breeding program.
